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Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity.

Publication ,  Journal Article
Lee, WH; Deng, Z-D; Kim, T-S; Laine, AF; Lisanby, SH; Peterchev, AV
Published in: Neuroimage
February 1, 2012

We present the first computational study investigating the electric field (E-field) strength generated by various electroconvulsive therapy (ECT) electrode configurations in specific brain regions of interest (ROIs) that have putative roles in the therapeutic action and/or adverse side effects of ECT. This study also characterizes the impact of the white matter (WM) conductivity anisotropy on the E-field distribution. A finite element head model incorporating tissue heterogeneity and WM anisotropic conductivity was constructed based on structural magnetic resonance imaging (MRI) and diffusion tensor MRI data. We computed the spatial E-field distributions generated by three standard ECT electrode placements including bilateral (BL), bifrontal (BF), and right unilateral (RUL) and an investigational electrode configuration for focal electrically administered seizure therapy (FEAST). The key results are that (1) the median E-field strength over the whole brain is 3.9, 1.5, 2.3, and 2.6 V/cm for the BL, BF, RUL, and FEAST electrode configurations, respectively, which coupled with the broad spread of the BL E-field suggests a biophysical basis for observations of superior efficacy of BL ECT compared to BF and RUL ECT; (2) in the hippocampi, BL ECT produces a median E-field of 4.8 V/cm that is 1.5-2.8 times stronger than that for the other electrode configurations, consistent with the more pronounced amnestic effects of BL ECT; and (3) neglecting the WM conductivity anisotropy results in E-field strength error up to 18% overall and up to 39% in specific ROIs, motivating the inclusion of the WM conductivity anisotropy in accurate head models. This computational study demonstrates how the realistic finite element head model incorporating tissue conductivity anisotropy provides quantitative insight into the biophysics of ECT, which may shed light on the differential clinical outcomes seen with various forms of ECT, and may guide the development of novel stimulation paradigms with improved risk/benefit ratio.

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Published In

Neuroimage

DOI

EISSN

1095-9572

Publication Date

February 1, 2012

Volume

59

Issue

3

Start / End Page

2110 / 2123

Location

United States

Related Subject Headings

  • Neurology & Neurosurgery
  • Models, Statistical
  • Models, Anatomic
  • Male
  • Magnetic Resonance Imaging
  • Image Processing, Computer-Assisted
  • Humans
  • Head
  • Functional Laterality
  • Finite Element Analysis
 

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Lee, W. H., Deng, Z.-D., Kim, T.-S., Laine, A. F., Lisanby, S. H., & Peterchev, A. V. (2012). Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity. Neuroimage, 59(3), 2110–2123. https://doi.org/10.1016/j.neuroimage.2011.10.029
Lee, Won Hee, Zhi-De Deng, Tae-Seong Kim, Andrew F. Laine, Sarah H. Lisanby, and Angel V. Peterchev. “Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity.Neuroimage 59, no. 3 (February 1, 2012): 2110–23. https://doi.org/10.1016/j.neuroimage.2011.10.029.
Lee WH, Deng Z-D, Kim T-S, Laine AF, Lisanby SH, Peterchev AV. Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity. Neuroimage. 2012 Feb 1;59(3):2110–23.
Lee, Won Hee, et al. “Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity.Neuroimage, vol. 59, no. 3, Feb. 2012, pp. 2110–23. Pubmed, doi:10.1016/j.neuroimage.2011.10.029.
Lee WH, Deng Z-D, Kim T-S, Laine AF, Lisanby SH, Peterchev AV. Regional electric field induced by electroconvulsive therapy in a realistic finite element head model: influence of white matter anisotropic conductivity. Neuroimage. 2012 Feb 1;59(3):2110–2123.
Journal cover image

Published In

Neuroimage

DOI

EISSN

1095-9572

Publication Date

February 1, 2012

Volume

59

Issue

3

Start / End Page

2110 / 2123

Location

United States

Related Subject Headings

  • Neurology & Neurosurgery
  • Models, Statistical
  • Models, Anatomic
  • Male
  • Magnetic Resonance Imaging
  • Image Processing, Computer-Assisted
  • Humans
  • Head
  • Functional Laterality
  • Finite Element Analysis